Universal formalism of Fano resonance
... from others and the corresponding eigenvalue has a small imaginary part, i.e., γα < Eα+1 − Eα and γα < Eα − Eα−1, it will result in a transmission resonance by itself with energy scale γα , as shown in Fig. 3. In this case, Ω0 can be chosen to have only one eigenstate α. This will be our focus in th ...
... from others and the corresponding eigenvalue has a small imaginary part, i.e., γα < Eα+1 − Eα and γα < Eα − Eα−1, it will result in a transmission resonance by itself with energy scale γα , as shown in Fig. 3. In this case, Ω0 can be chosen to have only one eigenstate α. This will be our focus in th ...
Design of Reversible Logic based Basic Combinational Circuits
... circuits are constructed using irreversible logic. According to Landauers principle, the loss of one bit of information lost, will dissipate kT*ln (2) joules of energy where, k is the Boltzmanns constant and k=1.38x10 -23 J/K, T is the absolute temperature in Kelvin [1]. The basic combinational circ ...
... circuits are constructed using irreversible logic. According to Landauers principle, the loss of one bit of information lost, will dissipate kT*ln (2) joules of energy where, k is the Boltzmanns constant and k=1.38x10 -23 J/K, T is the absolute temperature in Kelvin [1]. The basic combinational circ ...
Mirror QCD and Cosmological Constant
... particles [37] which correspond to the extra non-Abelian gauge group and whose possible interaction with the visible SM sectors is strongly suppressed. In particular, a class of models known as Neutral Naturalness theories has been proposed in the literature [38–40] as a promising solution of the na ...
... particles [37] which correspond to the extra non-Abelian gauge group and whose possible interaction with the visible SM sectors is strongly suppressed. In particular, a class of models known as Neutral Naturalness theories has been proposed in the literature [38–40] as a promising solution of the na ...
Discovery of Higgs Boson - High Energy Physics
... Different types of quantum orbits M. Herndon, Phys 301 2017 ...
... Different types of quantum orbits M. Herndon, Phys 301 2017 ...
Poetry of Physics and the Physics of Poetry
... depend on these formulae. The role of a mathematical equation in physics is also described. To repeat the mathematics is purely supplementary. This book is written explicitly for the people who have difficulty with the mathematics but wish to understand their physical universe. Although all fields o ...
... depend on these formulae. The role of a mathematical equation in physics is also described. To repeat the mathematics is purely supplementary. This book is written explicitly for the people who have difficulty with the mathematics but wish to understand their physical universe. Although all fields o ...
litera_1
... cattle guards refuse to cross them. This is evidence of the effects of morphic resonance.) The evolution of biological forms involves not merely the evolution of gene pools within the species but also the evolution of the morphic fields characterizing that species. And because of this, evolutionary ...
... cattle guards refuse to cross them. This is evidence of the effects of morphic resonance.) The evolution of biological forms involves not merely the evolution of gene pools within the species but also the evolution of the morphic fields characterizing that species. And because of this, evolutionary ...
Current fluctuations in single electron devices
... electronic circuit based on semiconducting materials. Moreover, in recent years mesoscopic physics has developed into a interdisciplinary field including physics, chemistry and biology. In fact, in the relentless search for smaller electronic devices, the idea of using single organic molecules, nano ...
... electronic circuit based on semiconducting materials. Moreover, in recent years mesoscopic physics has developed into a interdisciplinary field including physics, chemistry and biology. In fact, in the relentless search for smaller electronic devices, the idea of using single organic molecules, nano ...
AN1 FUNDAMENTALS
... € moves is essentially undetectable. People often ask how one can know when to use relativistic or non-relativistic formulas. The answer is that if you are not sure then relativistic formulas (such as 1.4) are always correct and the only disadvantage in using them is that they are a little more comp ...
... € moves is essentially undetectable. People often ask how one can know when to use relativistic or non-relativistic formulas. The answer is that if you are not sure then relativistic formulas (such as 1.4) are always correct and the only disadvantage in using them is that they are a little more comp ...
Precisely Timing Dissipative Quantum Information
... preparing’’ a state, and it is far from clear how to incorporate error correction into any such scheme. In this work, we open up new perspectives for dissipative quantum information processing by introducing and analyzing a number of dissipative ‘‘gadgets.’’ They can be combined to act as time trigg ...
... preparing’’ a state, and it is far from clear how to incorporate error correction into any such scheme. In this work, we open up new perspectives for dissipative quantum information processing by introducing and analyzing a number of dissipative ‘‘gadgets.’’ They can be combined to act as time trigg ...
Quantum error correction
... how information can be carried by quantum states, and how interaction with other systems give rise to a full set of quantum phenomena, many of which have no correspondence in classical information theory. These phenomena include decoherence, as a consequence of entanglement. Decoherence can also be ...
... how information can be carried by quantum states, and how interaction with other systems give rise to a full set of quantum phenomena, many of which have no correspondence in classical information theory. These phenomena include decoherence, as a consequence of entanglement. Decoherence can also be ...
The Equivalence Myth of Quantum Mechanics
... we need to be clear about the meaning of ‘mathematical equivalence’ and of ‘physical theory’. We characterise these terms in (a); and we present the mathematical structures of matrix mechanics in (b) and those of wave mechanics in (c), as expounded in Part I, Sections 3 and 4, respectively. (a) The ...
... we need to be clear about the meaning of ‘mathematical equivalence’ and of ‘physical theory’. We characterise these terms in (a); and we present the mathematical structures of matrix mechanics in (b) and those of wave mechanics in (c), as expounded in Part I, Sections 3 and 4, respectively. (a) The ...
Creation: Stars and Planets
... Unfortunately, I misquoted the value of this quantity by a factor of π and so derived a Hubble time factor of 11,400 million years, whereas the theory based on such assumption indicates a lower value of the order of 4 billion years. I am now somewhat hesitant about relying on such a formula and woul ...
... Unfortunately, I misquoted the value of this quantity by a factor of π and so derived a Hubble time factor of 11,400 million years, whereas the theory based on such assumption indicates a lower value of the order of 4 billion years. I am now somewhat hesitant about relying on such a formula and woul ...
Instituto Nacional de Astrofísica, Optica y Electrónica.
... Electromagnetic radiation and sound are fundamental entities of our world. They are related to almost any phenomena that we can imagine. Almost any interaction or exchange involves at least one of these two elements. Moreover, they both have analogous properties in which mankind has based the develo ...
... Electromagnetic radiation and sound are fundamental entities of our world. They are related to almost any phenomena that we can imagine. Almost any interaction or exchange involves at least one of these two elements. Moreover, they both have analogous properties in which mankind has based the develo ...
A TRANSIENT COMPUTATIONAL FLUID DYNAMIC STUDY OF A LABORATORY-SCALE FLUORINE ELECTROLYSIS CELL
... Metal, semi-conductor, conductive ceramics or polymers and graphite electrodes are commonly used. Carbon electrodes less commonly so, but are necessary in special electrolysers used during fluorine production. Ions and atoms are interchanged and electrons are removed or added via the external circui ...
... Metal, semi-conductor, conductive ceramics or polymers and graphite electrodes are commonly used. Carbon electrodes less commonly so, but are necessary in special electrolysers used during fluorine production. Ions and atoms are interchanged and electrons are removed or added via the external circui ...
Hydrogen atom
A hydrogen atom is an atom of the chemical element hydrogen. The electrically neutral atom contains a single positively charged proton and a single negatively charged electron bound to the nucleus by the Coulomb force. Atomic hydrogen constitutes about 75% of the elemental (baryonic) mass of the universe.In everyday life on Earth, isolated hydrogen atoms (usually called ""atomic hydrogen"" or, more precisely, ""monatomic hydrogen"") are extremely rare. Instead, hydrogen tends to combine with other atoms in compounds, or with itself to form ordinary (diatomic) hydrogen gas, H2. ""Atomic hydrogen"" and ""hydrogen atom"" in ordinary English use have overlapping, yet distinct, meanings. For example, a water molecule contains two hydrogen atoms, but does not contain atomic hydrogen (which would refer to isolated hydrogen atoms).